2019
DOI: 10.1021/acsami.9b08664
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Oxygen Vacancy-rich Porous Co3O4 Nanosheets toward Boosted NO Reduction by CO and CO Oxidation: Insights into the Structure–Activity Relationship and Performance Enhancement Mechanism

Abstract: Oxygen vacancy-rich porous Co 3 O 4 nanosheets (OV-Co 3 O 4 ) with diverse surface oxygen vacancy contents were synthesized via facile surface reduction and applied to NO reduction by CO and CO oxidation. The structure−activity relationship between surface oxygen vacancies and catalytic performance was systematically investigated. By combining Raman, X-ray diffraction, transmission electron microscopy, X-ray photoelectron spectroscopy, and O 2 -temperature programmed desorption, it was found that the efficient… Show more

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Cited by 137 publications
(107 citation statements)
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“…Depending on the conditions of the experiment, one or the other could be dominant, but neither could be ruled out. In the case of the herein studied perovskite catalysts, it is reasonable to assume that the formation of carbonate is mainly due to the surface reaction of CO with the two active O − , as reported for Co 3 O 4 catalysts [58]. The positive correlation of the extent of the reaction with the Co content can be qualitatively inferred by the gas phase CO and CO 2 intensities.…”
Section: Operando Drifts During Co Oxidationsupporting
confidence: 68%
“…Depending on the conditions of the experiment, one or the other could be dominant, but neither could be ruled out. In the case of the herein studied perovskite catalysts, it is reasonable to assume that the formation of carbonate is mainly due to the surface reaction of CO with the two active O − , as reported for Co 3 O 4 catalysts [58]. The positive correlation of the extent of the reaction with the Co content can be qualitatively inferred by the gas phase CO and CO 2 intensities.…”
Section: Operando Drifts During Co Oxidationsupporting
confidence: 68%
“…Thus the reduction of m‐WO 3 became easier, as confirmed by the H 2 ‐TPR analysis (Figure 6), which promoted the generation of oxygen vacancies. It has been revealed by the previous studies that the oxygen vacancies could serve as adsorption sites to capture the dissociated O* atoms by NO, which is well confirmed by the lower concentration of dissociated O* atoms on Ir 1 /m‐WO 3 , as shown in Figure 9c, and the role of CO is to combine the O* atom to form CO 2 and regenerate the oxygen vacancies [24,48,49] . Based on the above experimental results and analysis, we thus propose the catalytic reaction mechanism, which is illustrated in Figure 12.…”
Section: Resultssupporting
confidence: 71%
“…This change can produce lattice molecular vibrational level changes, which give rise to Raman shifts. [ 58 ] XAS characterization is adopted to study the local geometric configurational changes and electronic structures of solids. For example, Xiao et al used XAS technique to detect oxygen vacancies by probing the lower coordination number of cobalt.…”
Section: Dynamics Of Vacancy On Surfacementioning
confidence: 99%